A method for machining a ceramic matrix composite (CMC), the method enhancing a machining speed for the ceramic matrix composite (CMC), includes: a step of scanning an irradiated portion (32) of a surface of a machining target material (30) by a laser head (21) to irradiate the irradiated portion (32) with laser light from the laser head (21), and forming a deteriorated layer on the irradiated portion (32) of the surface of the machining target material (30); and a step of sequentially removing the deteriorated layer by an end mill (25), the deteriorated layer being formed on the irradiated portion (32), wherein the deteriorated layer is formed by heating the irradiated portion (32) up to a predetermined temperature by irradiation of continuous oscillation laser light, and by forming a crack by irradiation of pulsed oscillation laser light.

Die Erfindung betrifft ein Schneidteil (20, 54), das zumindest eine geometrisch bestimmte Schneide eines Zerspanungswerkzeugs (50) zum Zerspanen eines Werkstücks definiert, wobei das Schneidteil (20, 54) aus einem einkristallinen metallischen oder keramischen Schneidstoff besteht.

Fraise à rainurer, comprenant un corps (12) en carbure et une tête (16) en céramique fixée par brasage à une extrémité du corps, cette tête comportant des dents (22) comprenant chacune une arête de coupe (24) formée par une intersection entre une face avant de coupe (A_γ) et une face inférieure de dépouille, caractérisé en ce que la fraise a une forme générale tronconique, en ce que le profil de la face de dépouille, formé par l'intersection de la face de dépouille avec un plan passant par l'axe de la fraise, a une forme arrondie convexe vers l'extérieur, et en ce que l'angle de coupe radial est négatif.

The invention provides a milling cutter for machining metal workpieces and a cartridge therefor. The milling cutter comprises a plurality of peripheral recesses (11) for the receipt of insert-equipped cartridges (23). One of the walls of said recess is provided by two arms (15) integral with the milling cutter body that each by means of a screw (29) is arranged to clamp the cartridge against one wall in said recess. The cartridge is provided with two bores having suitable clearance for the receipt of said screws (29).

A tool insert, particularly for a turning or milling tool, comprising a cubic boron nitride compact having a thin, wear-resistant refractory layer bonded thereto and presenting a cutting edge. The refractory is preferably titanium nitride, titanium carbide or a mixture thereof. The insert is particularly useful for the cutting of ferrous material having a Rockwell C Hardness of less than 45.

The present invention includes an end mill body (2) which is formed of ceramic, a chip discharge flute (4) which is formed on an outer periphery of the end mill body (2), a peripheral cutting edge (6) which is formed on an intersection ridge line between a wall surface facing a tool rotation direction (T) in the chip discharge flute (4) and an outer peripheral surface of the end mill body (2), an end cutting edge which is formed on an intersection ridge line between the wall surface in the chip discharge flute (4) and a tip surface of the end mill body (2), and a corner cutting edge which is positioned at a tip outer-peripheral part of the end mill body (2), connects an outer end of the end cutting edge and a tip of the peripheral cutting edge (6) to each other, and has a convexly curved shape which is convex toward a tip outer-peripheral side of the end mill body (2). A radial rake angle (angle α) of at least the peripheral cutting edge (6) among the peripheral cutting edge (6), the end cutting edge, and the corner cutting edge is set to a negative angle, and the radial rake angle (angle α) of the peripheral cutting edge (6) is -20° to -10°.